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rubyx/lib/register
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Torsten Ruger 35adf9a5e6 rename set_slot 
set_slot was clear about the target, but not the source.
Better with reg_to_slot (and soon it’s inverse slot_to_reg)
2016-12-25 18:02:39 +02:00
..
builtin rename set_slot 2016-12-25 18:02:39 +02:00
instructions rename set_slot 2016-12-25 18:02:39 +02:00
assembler.rb some reek assited coding on assembler 2016-12-16 15:41:26 +02:00
boot.rb seperate args from message (just like frame) 2016-12-21 22:35:36 +02:00
collector.rb rename layout to type 2016-02-25 11:50:10 -08:00
eventable.rb move interpreter to register 2015-11-18 12:00:30 +02:00
instruction.rb rename set_slot 2016-12-25 18:02:39 +02:00
interpreter.rb rename set_slot 2016-12-25 18:02:39 +02:00
machine.rb refactor also building word 2016-12-15 19:31:39 +02:00
padding.rb some docs 2016-12-06 11:38:09 +02:00
positioned.rb some docs 2016-12-06 11:38:09 +02:00
README.md remove references to soml 2016-12-11 12:55:03 +02:00
register_value.rb rename locals from type to role in message 2016-12-21 19:01:42 +02:00

README.md

Register Machine

The RegisterMachine, is an abstract machine with registers. Think of it as an arm machine with normal instruction names. It is not however an abstraction of existing hardware, but only of that subset that we need.

Our primary objective is to compile typed code to this level, so the register machine has:

  • object access instructions
  • object load
  • object oriented call semantics
  • extended (and extensible) branching
  • normal integer operators (but no sub word instructions)

All data is in objects.

The register machine is aware of Parfait objects, and specifically uses Message and Frame to express call semantics.

Calls and syscalls

The RegisterMachine only uses 1 fixed register, the currently worked on Message.

There is no stack, rather messages form a linked list, and preparing to call, the data is pre-filled into the next message. Calling then means moving the new message to the current one and jumping to the address of the method. Returning is the somewhat reverse process.

Syscalls are implemented by one Syscall instruction. The Register machine does not specify/limit the meaning or number of syscalls. This is implemented by the level below, eg the arm/interpreter.

Interpreter

There is an interpreter that can interpret compiled register machine programs. This is very handy for debugging (an nothing else).

Even more handy is the graphical interface for the interpreter, which is in it's own repository: salama-debugger.

Arm / Elf

There is also a (very strightforward) transformation to arm instructions. Together with the also quite minimal elf module, arm binaries can be produced.

These binaries have no external dependencies and in fact can not even call c at the moment (only syscalls :-)).